- StringFix recover transcript sequence and the corresponding amino acid sequence by taking small variants (INDEL and SNP) into account.
- It optionally utilizes a previous annotations (in GTF or GFF file format) to generate amino acid sequences while reflecting small variants found in the alignment of reads to a reference genome.
- You can use either the GTF annotation associated with the reference genome or the GFF file generated by some reference-based transcriptome assmeblers, such as StringTie, Cufflink, Strawberry and so on.
- Basically, the SW recovers amino acid sequence from the transcript sequence based on the annotations in GTF/GFF, if there is no changes in start/stop codon.
- While, if start/stop codon is garbled, it searches a new open reading frame (ORF) by applying the 'longest ORF rule'.
- cite: Lee J, Kim M, Han K, and Yoon S, StringFix: an annotation-guided transcriptome assembler improves the recovery of amino acid sequences from RNA-Seq reads, Genes & Genimics https://doi.org/10.1007/s13258-023-01458-7
StringFix can be installed using pip command. With python3 installed in your system. Use the follwing command in a terminal.
pip install StringFix
StringFix requires the pre-installed python packages including Numpy
, Pandas
, sklearn
, and scipy
.
-
run_sfix.py
is a python script that can be run in a terminal. -
Download
run_sfix.py
to your local directory and simply run the script by typingpython3 run_sfix.py
orpython run_sfix.py
in a terminal to see the available parameters. -
According to what information is provided, StringFix is run in one of the following modes of operation.
- Genome-guided mode: requires only SAM or BAM file (a mandatory parameter) (pybam is used to load BAM file.)
- Annotation-guided mode: requires SAM/BAM and GTF/GFF annotation, where, for the latter, one can use either the reference GTF associated to the reference genome or the GFF file generated by some genome-guided transcriptome assemblers
- Annotation-guided mode with sequence correction: requires SAM/BAM, GTF/GFF annotation and the reference genome (The reference genome must be the one used for read alignment)
-
Once it is successfully run, it outputs the following files
- transcriptome.fasta, containing the transcript sequences for all the isoforms that were detected as 'expressed' with its estimated coverage above the threshold
- Expression profiles in 'tsv' format, containing the raw read coverage depth and TPM for all the transcript detected
- SNV summary in 'tsv' format, containg all the small variations, including indel and SNP. SNPs are provided only if the path to the reference genome is provided
- proteome.fasta, containing the amino acid sequences for all the protein-coding genes that were detected as 'expressed' with its estimated coverage above the threshold. (Path to the reference genome must be given to get protein sequences)
- Click here to download the test data and store it to your preferred directory.
- decompress the file by typing
tar -xzvf StringFix_test_data.tar.gz
in a terminal. - Change directory to the decompressed directory.
- run
./test_run.sh
. (If needed, make the shell script executable by typingchmod 777 test_run.sh
)
Send email to [email protected] for any inquiry on the usages.